1.
Analysis on Fatigue Life of Steel 1CrMoV in the State of Multiaxial Stress;
多轴应力状态下1CrMoV钢的疲劳寿命分析
2.
Research on Numerical Simulation and Lifetime of High-temperature Components Creep Damage under Multiaxial Stress State;
多轴应力状态下高温部件蠕变损伤的数值模拟及寿命研究
3.
Damage Model of Concrete under Multiaxial Stress State Based on Energy Dissipation
基于能量耗散的多轴应力状态下混凝土损伤模型
4.
A body is said to be in a state of plane stress or alternatively in a two-dimensional or biaxial state of stress.
据称该物体处于平面应力状态或二维应力状态或双轴应力状态。
5.
Triaxial computational method for structure time dependent behavior;
三轴应力状态下结构时间效应的计算
6.
Research on unsaturated loess experiment under triaxial stress
三轴应力状态下非饱和黄土试验研究
7.
Fatigue Life Prediction of the Rotor Shaft of the Rotary Tiller under Multi-stress;
复合应力状态下旋耕机刀轴疲劳寿命估算
8.
Numerical Analysis of Stress for Friction Surface of Crankshaft with Surface Defect
曲轴摩擦表面缺陷应力状态的数值分析
9.
The condition of uniaxial stress is closely approximated in prismatic bars subjected to pure axial tensile.
单轴的应力状态跟棱柱杆承受单纯轴向拉伸十分近似。
10.
Plastic Damage Analysis of RPC under Uni-axial Compression and Bi-axial Compression Stress States;
单轴及双轴受压应力状态下RPC材料的塑性损伤分析
11.
Assessment of Systolic Left Ventricular Transmural Mechanics Using Quantitative Tissue Doppler Image Ultrasongraphy in Vivo: A Normal Canine Model
定量组织多普勒超声评价犬左心室收缩期短轴跨壁心肌力学状态
12.
To ensure this, specimens must be of sufficient thickness so that a triaxial state of stress can exist at the flaw tip.
为此,试样必须足够厚,使裂纹顶端处于三轴向的应力状态。
13.
Effect of Triaxial Stress on the Plastic Zone Distribution in Front of Crack Tip with Mixed Mode Loading
三轴应力状态下复合型裂纹尖端前缘的塑性区分布
14.
Experimental Study on Deformation and Strength of Mass Concrete under Biaxial Compression;
大骨料混凝土在双轴压应力状态下的变形和强度试验研究
15.
Rock failure mechanism and true triaxial experimental study of specimens with single structural plane under three-dimensional stress
三向应力状态下单结构面岩石试样破坏机制与真三轴试验研究
16.
The condition of uniaxial stress is closely approximated in prismatic bars subjected to pure axial tensile or compressive ioading.
承受单纯轴向拉伸和压缩的棱柱杆十分近似地处于单轴的应力状态。
17.
Do not remove collar bushing with valve under pressure.
在阀门处于压力状态下,不要拆卸轴环。
18.
Research On Dynamical Analysis Based On Torsional Condition Of Torsion Bar
基于扭力轴扭转状态下的动力学分析研究